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I am wondering how you can get a child process to wait to execute a statement after it's parent does a particular thing.

My needs are fairly simple, I just need to spawn the child process with fork, have the parent write something to a file, then have the child write something to the file, then they both finish executing their separate commands.

I've only learned about using wait() and waitpid() to have child processes execute first, then have the parent execute, but that obviously won't work here.

Any ideas?

Help is greatly appreciated, thanks.

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Here's a quick overview of the various methods for communicating between process Linux provides: – bdk Dec 16 '10 at 17:11

3 Answers 3

up vote 4 down vote accepted

You can use a pipe() between the parent and child. The parent writes to the child via the pipe after the parent has finished writing to the file.

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For clarity's sake, I'd add that the parent needs only write one byte to the pipe, and it doesn't matter what that byte is. The child waits for read() on the pipe to come back before it does anything else, but it doesn't need to do anything with the data sent. This can be expanded to a token-passing scheme to coordinate many child processes, although there are subtleties: see for instance – zwol Dec 16 '10 at 19:16

Use a signal. Choose one of the utility signals, and have the parent send it to the child after the write.

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Why don't you have the parent do its writing before spawning the child?

If that won't work, you really should think about whether fork is the right tool for the job I've seen a lot of fork-related questions here, probably as a result of some old-timer professor with his head buried in the 70s not being aware that POSIX threads are the tool for most such jobs. Really the only legitimate uses for fork are running external programs (but posix_spawn is a better interface for doing so) and handing off heavy-weight client connections (like ssh sessions) to a completely new process that needs to adjust its privileges and isolate itself from other sessions for security purposes.

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For a discussion of posix_spawn() vs fork()/exec(), check – chrisaycock Dec 16 '10 at 17:20
Note that on systems without posix_spawn, it's trivial to implement it as a library routine on top of fork (or better yet, on top of vfork if it's available). – R.. Dec 16 '10 at 17:28
@R I was under the impression that, at least for Linux, the startup overhead for fork() has been optimized to next to nothing allowing you to do simple tasks similar to the OP's without having to worry about all the pitfalls that come with threads like thread-safe functions, mutex/semaphore handling and deadlocks. – SiegeX Dec 16 '10 at 17:43
The fork itself has very low cost, but communication will be much more costly. Unless you setup shared memory, all communication will have to go through the kernel. With threads, the kernel will never be involved in communication between threads except in the case of waiting or contention. As for the complexity of concurrency, deadlocks, etc., the same issues apply with synchronizing separate processes. File locks, ipc semaphores, etc. can all lead to deadlocks if used incorrectly. – R.. Dec 16 '10 at 18:42
I see sending all communication through the kernel as an advantage of forked processes relative to threads. You have to define your IPC precisely, which means it's easier to find and deal with all the places you could have concurrency problems. You also get memory protection for free. The only advantage threads have is less communication overhead, and there are clean ways to reduce it (explicit shared memory segments, for instance) without giving up the advantage of greater isolation. Personally I think threads are an optimization to use only after exhausting all other alternatives. – zwol Dec 16 '10 at 19:13

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